Inhibition of human immunodeficiency virus replication and growth advantage of CD4+ T cells and monocytes derived from CD34+ cells transduced with an intracellular antibody directed against human immunodeficiency virus type 1 Tat.

Current clinical gene therapy protocols for the treatment of human immunodeficiency virus type 1 (HIV-1) infection involve the ex vivo transduction and expansion of CD4+ T cells derived from HIV-positive patients at a late stage in their disease (CD4+ cell count <400 cells/mm3). We examined the efficiency of transduction and transgene expression in adult bone marrow (BM)- and umbilical cord blood (UCB)-derived CD34+ cells induced to differentiate into T cells and monocytes in vitro with an MuLV-based vector encoding the neomycin resistance gene and an intracellular antibody directed against the Tat protein of HIV-1 (sFvtat1-Ckappa). The expression of the marker gene and the effects of antiviral construct on subsequent challenge with monocytotropic and T cell-tropic HIV-1 isolates were monitored in vitro in purified T cells and monocytes generated in culture from the transduced CD34+ cells. Transduction efficiencies of CD34+ cells ranged between 22 and 27%. Differentiation of CD34+ cells into T cells or monocytes was not significantly altered by the transduction process. HIV-1 replication in monocytes and CD4+ T cells derived from CD34+ cells transduced with the intracellular antibody gene was significantly reduced in comparison with the degree of HIV replication seen in monocytes and CD4+ T cells derived from CD34+ cells transduced with the neomycin resistance gene alone. Further, T cells and monocytes derived from CD34+ cells transduced with the intracellular antibody gene were demonstrated to express the sFvtat1-Ckappa transgene by RT-PCR and had a selective growth advantage in cultures that had been challenged with HIV-1. These data demonstrate that sFvtat1-Ckappa inhibits HIV-1 replication in T cells and monocytes developing from CD34+ cells and supports the continuing development of a stem cell gene therapy for the treatment of HIV-1 infection.

Activated Val-12 ras p21 in cell culture fluids and mouse plasma.

Activation of ras oncogenes has been associated with a variety of cancers as well as their precursor lesions. Ras proteins activated by substitutions at amino acid positions 12, 13 or 61 have not been identified in normal tissues and therefore their detection may have clinical value. In this study our objective was to determine whether activated ras proteins could be released into the extracellular environment. To test this hypothesis, we used ras-transformed NIH3T3 cells that express an activated p21 containing valine (Val-12 p21) at position 12 instead of the normal glycine (Gly-12 p21) and a monoclonal antibody (mAb) designated DWP that is specific for the activated Val-12 ras proteins. Culture fluids collected from NIH3T3 cells transformed by the activated Val-12 p21 were shown, using mAb DWP in a sandwich ELISA format, to contain the activated Val-12 p21. In contrast, culture fluids from non-Val-12-containing cells were unreactive with mAb DWP. PSV-LM-EJ cells which overexpress the activated Val-12 p21 were injected subcutaneously (SQ) into nude mice to produce tumors. At the time of gross tumor appearance (14-21 days after tumor cell inoculation), plasma was collected from the PSV-LM-EJ tumor-bearing mice as well as from a series of control mice. Employing mAb DWP as a detection reagent in the sandwich ELISA format, we were able to detect the Val-12 p21 in the plasma of the PSV-LM-EJ tumor-bearing mice. Activated Val-12 p21 was not present in the plasma of non-tumor-bearing mice, or in the plasma of mice bearing SQ tumors composed of non-Val-12 p21 ras-transformed cells. This report is the first description of an activated ras protein (Val-12 p21) in the plasma of tumor-bearing mice and demonstrates that the results of the Val-12 p21-specific ELISA could be validated with Western blot format.

Characterization of monoclonal antibodies specific to the activated ras p21 with aspartic acid at position 13.

The ras proto-oncogenes encode membrane bound proteins (p21) which are structurally distinct from the proteins encoded by the activated transforming ras genes. These activated ras genes have been identified in various human tumors as well as their preneoplastic lesions such as colorectal tumors (20-40%), pancreatic carcinomas (95%), lung carcinomas (20-30%), myelodysplasia (40%) and acute myeloid leukemia (30%). The activation of ras p21 is due to amino acid substitutions at positions 12, 13 or 61 of the p21 protein. This report describes two monoclonal antibodies designated D129 and D146 raised against a synthetic peptide corresponding to amino acids 5-16 of ras p21 activated by the substitution of aspartic acid for glycine at position 13. D129 and D146 react specifically with the peptide with the aspartic acid substitution at position 13, but not with the peptide with valine at position 13 or the peptide containing the normal glycine at position 13. Western blot analysis demonstrates that D129 and D146 react specifically with p21 extracted from transformed NIH3T3 fibroblast lines containing aspartic acid at position 13. These studies also demonstrate that D146 is able to detect the activated p21 with aspartic acid at position 13 that is shed into the culture media. Studies demonstrate that MAb D146 specifically immunoprecipitates the cellular p21 with aspartic acid at position 13 from transformed NIH3T3 cells, whereas D129 cannot immunoprecipitate the activated p21. Using a sandwich ELISA format, D146 is able to detect the p21 with position 13 aspartic acid from cell extracts and culture fluids. The ability of D146 to function in the ELISA format raises the possibility that this assay maybe a quick and effective way of determining the presence of activated p21 with aspartic acid at position 13 in human fluids and tissues.